RU2333585C1 - Protector for constant current electrical equipment - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention is intended for protection of transport and industrial constant current electrical equipment from emergency conditions. The device contains immediate-action automatic circuit breaker (1), its control unit (2), and current sensor (3). The control unit of circuit breaker (2) contains command element, condenser, and thyristor. It is connected to the low-voltage power source. The retentive coil (5) of immediate-action automatic circuit breaker (1) is also connected to this power source. And the demagnetising coil (6) of immediate-action automatic circuit breaker (1) is connected to the control unit output with the circuit breaker (2).

EFFECT: increase of protection reliability and fire safety of electrical equipment.

3 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to devices using a high-speed circuit breaker, and can be used to protect transport and industrial DC electrical equipment from emergency situations - overloads or short circuits.

A device is known (RF Patent No. 2167478, H01H 3/087, H01H 75/02, B60L 3/04, publ. 05/20/2001), containing the power circuit of an electromechanical circuit breaker, connected between the first bus of the power source and the same polarity of the first load clamp and made in the form of series-connected disconnecting contacts, in which the movable are fixed on a lever common with the magnetically conductive armature, and two coils - arcing and demagnetizing, interconnected by first leads, holding a coil having a common magnetic circuit d and connected in turn with a demagnetizing coil and connected to a holding current source through a control circuit with a command element, a choke and a diode connected together in series, forming a circuit connected in a non-conductive direction between the second terminals of the arcing and demagnetizing coils, two capacitors, the first conclusions of which interconnected through a resistor and both terminals of each of which are connected to the charging circuit.

Closest to the claimed is a device for automatically turning off the direct current (RF Patent No. 2274937, Н02Н 3/087, Н01Н 75/02, publ. 04/20/2006. Bull. No. 11), containing a command body, to the inputs of which are connected emergency sensors load circuit, an electromechanical circuit breaker with NC contacts, holding and demagnetizing coils mounted on a common magnetic circuit, and an arcing chamber with an arcing coil, the first capacitor and two controllable electronic keys, and The circuit of the electromechanical circuit breaker is connected between the clamp for connecting to one of the busbars of the power source and the clamp for connecting the load circuit of the same polarity with it, and is made in the form of these disconnected contacts in series, in which the movable are fixed to the lever of the electromechanical circuit breaker with the magnetically conducting armature , arcing and demagnetizing coils, the last of which is magnetically opposed with a holding coil associated with a power source via a control key connected to the control input with the first output of the command organ, a second capacitor connected to the charging source, one of the terminals connected through a choke with interconnected terminals of the opening contact and the arcing coil, and through a diode to another terminal of the same coil and one of the terminals of the first capacitor connected through a second controlled electronic key to another terminal of the second capacitor connected through a resistor to another terminal of the first capacitor, connected to the other output of the demagnetizing coil through the first controlled electronic key, the control input of which is connected to the second output of the command organ, the third output connected to the control input of the second controlled electronic key, while the controlled electronic keys are connected in a direction that ensures that each capacitor discharges through the corresponding controlled electronic key, the diode is connected in the direction that the current flows in the arcing coil after complete discharge of the second capacitor, and the command body is configured to receive a signal at its third output with a time delay with respect to the signal at its second output.

The signs of the above device, which coincide with the features of the claimed invention, are at least one load circuit emergency sensor included in the device, a circuit breaker, a circuit for converting a signal from the emergency circuit sensor of the load circuit to a current pulse, which contains a command element (crucial part), capacitor, controlled electronic key; the circuit breaker contains a holding and demagnetizing coil located on a common magnetic circuit, opening contacts (main contacts), a lever, an armature, an arcing chamber with an arcing coil (magnetic blast coil); the power circuit of the circuit breaker is connected between the terminal for connecting to one of the busbars of the power source and the terminal of the same name with the same polarity for connecting the load circuit and is made in the form of series-connected arcing coils and breaking contacts (main contacts); movable contacts of the NC contacts (main contacts) are fixed on a lever of the circuit breaker common with the armature; the demagnetizing coil is magnetically opposed to the holding coil, i.e. the demagnetizing and holding coils are turned on in such a way that the magnetic flux they create is directed in the opposite direction; the holding coil is connected to the holding current source (power source) through a control key (key).

However, the specified device for automatically turning off the direct current in the full set of features has the following disadvantages:

- the demagnetizing coil is connected in series to the power high-voltage circuit of the circuit breaker, which requires additional measures to ensure its reliability and safety of operation;

- the presence of a fairly complex circuit that converts the signal from the sensor of the emergency state of the load circuit into a current pulse, which contains a command element, a first capacitor, two controlled electronic keys, a second capacitor, a choke, a diode, a resistor and a charging source, as well as creating and supporting current in the arcing coil;

- the need for a separate charging source to power the circuit that converts the signal from the emergency sensor of the load circuit into a current pulse.

The technical result that can be obtained by carrying out the invention is a significant simplification of the design, as well as improving the reliability of protection and fire safety of electrical equipment.

The specified technical result is achieved in that the device for protecting direct current electrical equipment comprises a circuit for converting a signal from a sensor of an emergency state of a load circuit into a current pulse made in the form of a control unit for a switch, at least one sensor of an emergency state of a load circuit and a circuit breaker. An alarm sensor of the load circuit is connected to the input of the circuit breaker control unit, and a demagnetizing coil of the circuit breaker is connected to the output of the circuit breaker control unit. The circuit breaker contains a holding and demagnetizing coil mounted on a common magnetic circuit, as well as main contacts, an armature, a lever and an arcing chamber with an arcing coil (magnetic blast coil). The demagnetizing and holding coils are turned on in such a way that the magnetic flux they create is directed in the opposite direction. The holding coil is connected to the low voltage power source through a key. A circuit breaker control unit is connected to the low voltage power source. The power circuit of the circuit breaker is connected between the terminal for connecting to one of the busbars of the power source and the terminal of the same name with the same polarity for connecting the load circuit and is made in the form of arrester coils and main contacts connected in series. The movable contacts of the main contacts are fixed on a common with the armature lever circuit breaker.

As de-quenching chambers, either deionic quenching chambers or arcing chambers with a narrow or labyrinth gap can be used.

New in the claimed invention is that the demagnetizing coil is connected to the output of the control unit of the switch, and not in the power circuit of the switch. To convert the signal from the emergency sensors to a current pulse, the switch control unit is used, made in the form of a device containing a command body (electronic crucial part), an electric energy storage device (capacitor), and a controlled electronic key (thyristor). The circuit breaker control unit is connected to a low-voltage power supply to which the holding coil of the circuit breaker is simultaneously connected.

This provides the following benefits:

- the power supply to the control unit of the circuit breaker and the holding coil comes from one source - from a low-voltage power source, i.e. additionally, a charging source is not required for the circuit breaker control unit (a circuit for converting a signal from an emergency sensor of a load circuit into a current pulse);

- due to the connection of the demagnetizing coil to the output of the control unit, and not to the power circuit of the circuit breaker, the formation of the demagnetizing pulse is carried out at a low voltage, for example 110 V DC,

All this greatly simplifies the design, reduces the overall dimensions of the device, increases the safety and reliability of operation, and also reduces the cost of the device as a whole.

The specified set of features has not been identified in the prior art, from which it can be concluded that the technical solution proposed as an invention meets the patentability condition “inventive step”.

The drawing shows an electrical schematic diagram of a device for automatically turning off direct current.

A device for automatically switching off a direct current comprises a circuit breaker 1, a control unit for a switch 2 and a current sensor 3.

The circuit breaker 1 contains the main contacts 4, the holding coil 5, the demagnetizing coil 6, the arcing chambers 7 with the arcing coils 8 (coils of magnetic blasting). The holding coil 5 and the demagnetizing coil 6 are placed on the common magnetic circuit 9. The demagnetizing coil 6 is magnetically opposed with the holding coil 5 and the terminals of the demagnetizing coil 6 are connected to the output of the control unit of the switch 2. The holding coil 5 is connected to the low-voltage power supply through a key 10. Power circuit breaker 1 is connected between the terminal for connecting to one of the buses of the power source and the same terminal with the same polarity terminal for connecting the load circuit. Arcing coils 8 and main contacts 4, in which the moving contacts are mounted on a lever of the circuit breaker 1 common with the armature 11, are sequentially included in the power circuit of the circuit breaker 1.

The output of the current sensor 3 is connected to the input of the control unit of the switch 2. The control unit of the switch 2 is connected to a low-voltage power source.

As arcing chambers 7, deionic arcing chambers can be used. Circuit breakers with deion type arc chambers are known, for example, from the RF patent for utility model No. 56713. The principle of operation of deion-type arcing chambers does not require strong forced magnetic blasting to extinguish the electric arc, which is necessary in the case of using arcing chambers with a narrow slit, therefore, when using deion arcing chambers, the arcing coils 8 have a minimum number of turns, for example 2-3. This is necessary for confident switching of small currents (critical currents).

In the case of the use of arcing chambers 7 of arcing chambers with a narrow slot, the arcing coils 8 must have a greater number of turns, in particular 9-10 turns, than when using deion type arcing chambers.

The control unit of the switch 2 is a device containing a command body, an electric energy storage device, made, for example, in the form of a capacitor (or block of capacitors), controlled by an electronic key, made, for example, in the form of a thyristor. The command organ can be made with one or more inputs - protection channels, for example, protection in the magnitude of the current rise, in the rate of rise, etc. As such a switch control unit, a BUV-50 type switch control unit manufactured by the Cheboksary Electric Appliance Plant (CHEAZ) can be used.

A device for automatically turning off the direct current operates as follows. In normal operating mode, the armature 11 is pulled to the poles of the magnetic circuit 9 and is held in this position by the magnetic flux created by the holding coil 5, which is fed from the low-voltage power source through a closed key 10. The main contacts 4 are closed.

With increasing current in the load circuit, the signal from the current sensor 3 is fed to the input of the control unit of switch 2, in its command body, which measures the magnitude of the current rise in the load circuit. If the magnitude of the current rise in the load circuit is equal to or greater than the specified value, then the command organ sends a signal to open the thyristor, through which the current pulse comes from the capacitor bank. The current pulse from the capacitor bank of the control unit of the switch 2 is supplied to the demagnetizing winding 6, as a result of which the magnetic flux in the magnetic circuit 9 is rapidly weakened and the power circuit of the circuit breaker 1 is turned off.

Claims (3)

1. Device for automatic shutdown of direct current, characterized in that it has a circuit breaker control unit connected to a low-voltage power supply, to the input of which an alarm sensor for the load circuit is connected, and a demagnetizing coil of the circuit breaker is connected to the output of the control unit of the circuit breaker, which also contains main contacts, magnetic circuit, anchor, lever holding the coil, connected through a key to a low-voltage power source, an arcing chamber with an arc with a single coil, the holding and demagnetizing coils placed on the magnetic circuit and turned on in such a way that the magnetic flux created by them is directed in the opposite direction, and the power circuit of the circuit breaker is connected between the terminal for connecting to one of the busbars of the power source and the terminal for the circuit of the same polarity load and is made in the form of series-connected arcing coils and main contacts, in which the movable contact is fixed to a lever of automatic lyuchatelya. 2. The device according to claim 1, characterized in that a deionic arcing chamber is used as an arcing chamber. 3. The device according to claim 1, characterized in that as an arcing chamber, an arcing chamber with a narrow or labyrinth gap is used.